[HTML][HTML] Constructing integrated networks for identifying new secondary metabolic pathway regulators in grapevine: recent applications and future opportunities
Representing large biological data as networks is becoming increasingly adopted for
predicting gene function while elucidating the multifaceted organization of life processes. In …
predicting gene function while elucidating the multifaceted organization of life processes. In …
Constructing Integrated Networks for Identifying New Secondary Metabolic Pathway Regulators in Grapevine: Recent Applications and Future Opportunities
DCJ Wong, JT Matus - 2017 - digital.csic.es
Representing large biological data as networks is becoming increasingly adopted for
predicting gene function while elucidating the multifaceted organization of life processes. In …
predicting gene function while elucidating the multifaceted organization of life processes. In …
Constructing Integrated Networks for Identifying New Secondary Metabolic Pathway Regulators in Grapevine: Recent Applications and Future Opportunities
DCJ Wong, JT Matus - Frontiers in plant science, 2017 - pubmed.ncbi.nlm.nih.gov
Representing large biological data as networks is becoming increasingly adopted for
predicting gene function while elucidating the multifaceted organization of life processes. In …
predicting gene function while elucidating the multifaceted organization of life processes. In …
[PDF][PDF] Constructing Integrated Networks for Identifying New Secondary Metabolic Pathway Regulators in Grapevine: Recent Applications and Future Opportunities
DCJ Wong, JT Matus - core.ac.uk
Representing large biological data as networks is becoming increasingly adopted for
predicting gene function while elucidating the multifaceted organization of life processes. In …
predicting gene function while elucidating the multifaceted organization of life processes. In …
Constructing Integrated Networks for Identifying New Secondary Metabolic Pathway Regulators in Grapevine: Recent Applications and Future Opportunities.
DCJ Wong, JT Matus - Frontiers in Plant Science, 2017 - europepmc.org
Representing large biological data as networks is becoming increasingly adopted for
predicting gene function while elucidating the multifaceted organization of life processes. In …
predicting gene function while elucidating the multifaceted organization of life processes. In …
Constructing integrated networks for identifying new secondary metabolic pathway regulators in grapevine: recent applications and future opportunities
DCJ Wong, JT Matus - Frontiers in plant science, 2017 - ddd.uab.cat
Representing large biological data as networks is becoming increasingly adopted for
predicting gene function while elucidating the multifaceted organization of life processes. In …
predicting gene function while elucidating the multifaceted organization of life processes. In …
Constructing integrated networks for identifying new secondary metabolic pathway regulators in grapevine: recent applications and future opportunities.
DCJ Wong, J Tomás Matus - 2017 - cabidigitallibrary.org
Representing large biological data as networks is becoming increasingly adopted for
predicting gene function while elucidating the multifaceted organization of life processes. In …
predicting gene function while elucidating the multifaceted organization of life processes. In …
[HTML][HTML] Constructing Integrated Networks for Identifying New Secondary Metabolic Pathway Regulators in Grapevine: Recent Applications and Future Opportunities
DCJ Wong, JT Matus - Frontiers in Plant Science, 2017 - ncbi.nlm.nih.gov
Representing large biological data as networks is becoming increasingly adopted for
predicting gene function while elucidating the multifaceted organization of life processes. In …
predicting gene function while elucidating the multifaceted organization of life processes. In …
[PDF][PDF] Constructing Integrated Networks for Identifying New Secondary Metabolic Pathway Regulators in Grapevine: Recent Applications and Future Opportunities
DCJ Wong, JT Matus - core.ac.uk
Representing large biological data as networks is becoming increasingly adopted for
predicting gene function while elucidating the multifaceted organization of life processes. In …
predicting gene function while elucidating the multifaceted organization of life processes. In …